from gas import KeroseneCombustionProducts
import functions as func
import logging
import matplotlib.pyplot as plt
from gas_dynamics import *
from scipy.optimize import fsolve
import os
log_filename = os.path.join(os.path.dirname(__file__),
'average_streamline_calculation.log')
logger = func.create_logger(__name__,
logging.DEBUG,
filename=log_filename,
filemode='a',
add_console_handler=False)
class InvalidStageSizeValue(Exception):
def __init__(self, message):
Exception.__init__(self, message)
self.message = message
class StageGeomAndHeatDrop:
def __init__(self):
self._gamma_out = None
self._gamma_in = None
self._gamma_av = None
self._l1_b_sa_ratio = None
self._l2_b_rk_ratio = None
self._delta_a_b_sa_ratio = 0.22
import logging.config
import pandas
import functions as func
import gas_dynamics as gd
from cycle_calculation.gas_turbine_units_input import *
from cycle_calculation.gas_turbine_units_input import OutletInput
from cycle_calculation.gas_turbine_units_output import *
import os
log_file_name = os.path.join(os.path.dirname(__file__), 'cycle_calculation.log')
logger = func.create_logger(loggerlevel=logging.INFO, filename=log_file_name, filemode='w', name=__name__)
def compute_comp_output(work_fluid: Air, pi_comp_stag: np.array, eta_comp_stag_p, T_in_stag):
work_fluid.__init__()
dk_rel = 1
k_air_ret = np.array([work_fluid.k])
work_fluid.T1 = T_in_stag
eta_comp_stag = None
k = 0
k_air_old = None
while dk_rel >= 0.01:
k += 1
eta_comp_stag = func.eta_comp_stag(pi_comp_stag, k_air_ret, eta_comp_stag_p)
work_fluid.T2 = T_in_stag * (1 + (pi_comp_stag ** ((k_air_ret - 1) / k_air_ret) - 1) / eta_comp_stag)
k_air_ret_new = work_fluid.k_av_int
dk_rel = max(abs(k_air_ret - k_air_ret_new) / k_air_ret)
k_air_old = k_air_ret
k_air_ret = k_air_ret_new
#!/usr/bin/env python3
import sys
import Adafruit_DHT
import logging
from time import sleep
from functions import get_data, create_logger
from PCF8574 import PCF8574_GPIO
from Adafruit_LCD1602 import Adafruit_CharLCD
# set sleep duration for test purposes
sleep_duration = 30
# # set up logging for debugging
logger = create_logger('display.log')
def clear_display():
lcd.clear()
logger.info("Display cleared.")
## setup display stuff (copied from example from freenove) #########
PCF8574_address = 0x27 # I2C address of the PCF8574 chip.
PCF8574A_address = 0x3F # I2C address of the PCF8574A chip.
# Create PCF8574 GPIO adapter.
try:
mcp = PCF8574_GPIO(PCF8574_address)
except:
try:
mcp = PCF8574_GPIO(PCF8574A_address)
#!/usr/bin/env python3
import json
from kubernetes import client, watch
from functions import MysqlControllerConfig, process_event, create_logger, parse_too_old_failure
runtime_config = MysqlControllerConfig()
crds = client.CustomObjectsApi()
logger = create_logger(log_level=runtime_config.args.log_level)
resource_version = ''
if __name__ == "__main__":
logger.info('mysql-controller initializing')
while True:
stream = watch.Watch().stream(crds.list_cluster_custom_object,
'signifly.io',
'v1',
'mysqldatabases',
resource_version=resource_version)
try:
for event in stream:
event_type = event["type"]
obj = event["object"]
metadata = obj.get('metadata')
spec = obj.get('spec')
code = obj.get('code')
if code == 410:
logger.debug('Error code 410')
new_version = parse_too_old_failure(obj.get('message'))
import logging
import Adafruit_DHT
from datetime import datetime
from functions import format_result, get_data, create_logger
from bot_secrets import channels, bottoken
# import numpy as np
c = channels
b = bottoken
updater = Updater(token=b.token(), use_context=True)
dispatcher = updater.dispatcher
j = updater.job_queue
# set up logging for debugging
logger = create_logger('bot.log')
def status(update, context):
results = get_data()
message = format_result(*results)
context.bot.send_message(chat_id=update.effective_chat.id, text=message)
logger.info('Sending status: ' + message)
def monitor_humidity(context: CallbackContext):
job = context.job
results = get_data()
humidity = results[1]
#!/usr/bin/env python3
import json
import sys
from kubernetes import client, watch
from functions import get_config, process_event, create_logger, parse_too_old_failure
runtime_config = get_config()
crds = client.CustomObjectsApi()
logger = create_logger(log_level=runtime_config['log_level'])
resource_version = ''
if __name__ == "__main__":
logger.info('newrelic-controller initializing')
while True:
stream = watch.Watch().stream(crds.list_cluster_custom_object,
'newrelic.com',
'v1',
'newrelicsettings',
resource_version=resource_version)
try:
for event in stream:
event_type = event["type"]
obj = event["object"]
metadata = obj.get('metadata')
spec = obj.get('spec')
code = obj.get('code')
if code == 410:
logger.debug('Error code 410')
